Lewis Acid-Catalyzed Additions

The Lewis acid-catalyzed addition of silyl kelene acetals occurred m high yield, and when the ketene acetal bore a substituent, the reactions occurred with modest diastereofacial selectivity [d] (equation 7) (Table 3)... 

For example, using (/ )-5-trimethylsilyl-2-cyclohexenone as the chiral Michael acceptor, optically active m // .v-3.5-disubstituied cyclohexanones 1 are obtained via a Lewis acid catalyzed addition of silylenol ethers or ketene acetals. 

Lewis acid-catalyzed additions can be carried out in the presence of other chiral ligands that induce enantioselectivity.156 Titanium TADDOL induces enantioselectivity in alkylzinc additions to aldehydes. A variety of aromatic, alkyl, and a, (3-unsaturated aldehydes give good results with primary alkylzinc reagents.157... 

Lewis acid-catalyzed hydrostannylation has been observed using ZrCl4. With terminal alkynes the Z-alkenylstannane is formed.142 These reactions are probably similar in mechanism to Lewis acid-catalyzed additions of silanes (see p. 811). 

As with the silanes, the most useful synthetic procedures involve electrophilic attack on alkenyl and allylic stannanes. The stannanes are considerably more reactive than the corresponding silanes because there is more anionic character on carbon in the C-Sn bond and it is a weaker bond.156 The most useful reactions in terms of syntheses involve the Lewis acid-catalyzed addition of allylic stannanes to aldehydes.157 The reaction occurs with allylic transposition. 

Carbon monoxide rapidly inserts into the carbon—zirconium bond of alkyl- and alkenyl-zirconocene chlorides at low temperature with retention of configuration at carbon to give acylzirconocene chlorides 17 (Scheme 3.5). Acylzirconocene chlorides have found utility in synthesis, as described elsewhere in this volume [17]. Lewis acid catalyzed additions to enones, aldehydes, and imines, yielding a-keto allylic alcohols, a-hydroxy ketones, and a-amino ketones, respectively [18], and palladium-catalyzed addition to alkyl/aryl halides and a,[5-ynones [19] are examples. The acyl complex 18 formed by the insertion of carbon monoxide into dialkyl, alkylaryl, or diaryl zirconocenes may rearrange to a r 2-ketone complex 19 either thermally (particularly when R1 = R2 = Ph) or on addition of a Lewis acid [5,20,21]. The rearrangement proceeds through the less stable... 

A variety of other powerful electrophiles add to the allylzirconium species 91, as shown in Scheme 3.26. Such reactions include the Lewis acid catalyzed addition of aryl, alkyl, or alkenyl acetals, derived from aldehydes, but not from ketones, and the addition of imi-nium species that lack p-hydrogens [56,58]. 

Liu et al. 43) prepared chiral BINOL ligands bearing dendritic Frechet-type polybenzyl ether wedges ((J )-41-(J )-44), which were assessed in enantioselective Lewis acid-catalyzed addition of Et2Zn to benzaldehyde. 

A formal asymmetric nucleophilic addition to carbonyl compounds is achieved by Trost and his co-workers in the allylic alkylation of acylals of alkenals. An excellent enantioselectivity is observed in this alkylation. The starting acylals are easily prepared by the Lewis-acid catalyzed addition of acid anhydrides to aldehydes, by use of Trost s ligand 118 (Scheme 13), where various carbon-centered nucleophiles are available (Scheme l4),101,101a-10lc Asymmetric synthesis of some natural products is achieved according to this procedure. 

Table 15. Lewis Acid Catalyzed Addition of Anhydrous Hydrogen Fluoride to Alkenes...

The scope and limitations of the Lewis acid-catalyzed additions of alkyl chlorides to carbon-carbon double bonds were studied.51 Since Lewis acid systems are well-known initiators in carbocationic polymerizations of alkenes, the question arises as to what factors govern the two transformations. The prediction was that alkylation products are expected if the starting halides dissociate more rapidly than the addition products.55 In other words, addition is expected if the initial carbocation is better stabilized than the one formed from the dissociation of the addition product. This has been verified for the alkylation of a range of alkyl-and aryl-substituted alkenes and dienes with alkyl and aralkyl halides. Steric effects, however, must also be taken into account in certain cases, such as in the reactions of trityl chloride.51... 

Majetich reports a general intramolecular Lewis acid allylation protocol for the synthesis of bicy-clo[5.4.0]undecen-3-ones (168) and bicyclo[4.4.0]decen-3-ones (170), which are 1,6-addition products (Scheme 27). The same precursors, (167) and (169), when submitted to the fluoride ion cyclization protocol, also afford 1,2- and 1,4-addition products.73 Typically, ethylaluminum dichloride, a proton sponge Lewis acid, is used in order to minimize adventitious protonic desilylation. Other 0,y-unsatu-rated silanes also undergo similar intramolecular Lewis acid catalyzed additions for example, the si-lylpropargylic enones (171) undergo intramolecular cyclization to the allenylspiro system (172).74... 

SE.3.1.2. Desymmetrization of gem-Dwarboxylates An equivalent of asymmetric carbonyl addition can be achieved by the alkylation of gem-dicarboxylates (Scheme 8E.17). The alkylation of gem-dicarboxylates, which are easily prepared by the Lewis acid-catalyzed addition of acid anhydrides to an aldehyde, converts the problem of differentiating the two enantiotopic 7t-faces of a carbonyl group into that of asymmetric substitution of either enantiotopic C-O bond of the gem-dicarboxylate. Although asymmetric induction may be derived from enantio-discrimination in the ionization step or in the alkene coordination step, the fast and reversible nature of alkene coordination suggests that the ionization step is more likely to be the source of enantio-discrimination. 

Addition to a-hydroxy aldehydes. The Lewis acid-catalyzed addition of 1 to aldehydes to afford homoallylic alcohols (9, 8) has been extended to the reaction with derivatives of a chiral a-hydroxy aldehyde (2), which can result in the monoderivative of a jyn-diol (3) and/or an anti-d o (4). The diastereoselectivity can be controlled by the... 

Asymmetric addition to a chiral a-keto amide. The Lewis acid-catalyzed addition of allyltrimethylsilane to a chiral a-keto amide (1) derived from methyl (S)-prolinate proceeds with good to high diastereoselectivity, probably because of chelation with the ester group of 1. SnBrj, SnCU. and TiCU are the most effective catalysts. 

Stereoselective additions to chiral a- and -alkoxy aldehydes. Lewis-acid-catalyzed additions of enol silyl ethers to chiral ct-alkoxy or (3-alkoxy aldehydes can proceed with high 1,2- and 1,3-asymmetric induction. Moreover, the sense of induction can be controlled by the Lewis acid. Thus BF, which is nonchelating, can induce diastereo-... 

We are not aware of any systematic investigations on the diastereoselectivities of the CC-bond-forming step in intermolecular reactions of carbocations with alkenes. Generally, we observed only low stereoselectivities in such cases, as illustrated for the Lewis acid catalyzed addition of 4-chloro-2-pentene to (Z)-2-butene (Scheme 19). The si,re transition state 6 is slightly favored (75 25) over the si,si (and re,re) transition state 7, and for the corresponding addition to ( )-2-butene, the advantage of si,re over si,si (or re,re) sinks to 57 43 [95]. 

The rearrangement processes, which can easily be studied in Lewis acid-catalyzed additions of alkyl halides to alkenes (Section III.B.2), give information about possible rearrangements in a growing chain produced from the corresponding monomer. 

The Lewis acid catalyzed additions of silyl ketene acetals to (5)-8 occur in high yield to give products 9 and, when the ketene acetal bears a substituent, the reactions occur with modest diastereofacial selectivity (Table 1). ... 

Titanium trichloride fimctions as an excellent reductive Nef alternative reagent. This aqueous reagent is very acidic, so that acid sensitive groups such as ketals and esters do not survive unless an acetate buffer is used. Systems prcme to acid-catalyzed rearrangements may then successfully undeigo the reaction (equation 10).Some veiy sensitive multifunctional compounds have been obtained using this modified Nef procedure (equation 11). A related process is the formation of 1,4-diketones via in situ generation of a nitronatc anion by the Lewis acid catalyzed addition of an enol silyl ether to a nitroalkene (equation 12). ... 

The Lewis acid catalyzed addition of benzenesulfenates to glycals constitutes a very effective route to the corresponding 2-deoxy-2-(phenylthio)glycosides29. The mode of addition is almost exclusively 1,2-tram with less than 5% of 1,2-m-product by H-NMR analysis. The results collected in the table overleaf show the generality of this procedure and its applicability to the synthesis of disaccharides. 

Fluorine-containing aldehydes, ketones and acid fluorides undergo photoinitiated cycloaddition reactions with fluorinated alkenes to give oxetanes.90 91 The addition of hexafluoroacetone (11) to fluoroalkenes can also be performed in the presence of the Lewis acid, aluminum chloride fluoride.92-1 22-1 23 Unlike the photochemical cycloaddition of hexafluoroacetone with trifluoroethene, the Lewis acid catalyzed addition is regioselective.92 Fluorooxetanes (c. g., 14) have also been synthesized by the addition of formaldehyde to fluoroalkenes in hydrogen fluoride.94 Examples of the formation of fluorooxetanes by [2 + 2]-cycloaddition reactions arc-given in Table 8. 

Silylated cyanohydrins have found considerable utility in the regioselective protection of p-qui-nones, as intermediates for the preparation of 3-amino alcohols and as precursors to acyl anion equivalents. Such compounds are typicdly prepared in high yield by either thermal or Lewis acid catalyzed addition of TMS-CN across the carbonyl group. This cyanosilylation has a variety of disadvantages and modified one-pot cyanosilylation procedures have been reported. - The carbonyl group can be regenerated by treatment with acid, silver fluoride or triethylaluminum hydrofluoride followed by base. ... 

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